Cold brewing system

ABSTRACT

Disclosed is a brewing system that utilizes a curved pedestal that allows brewed effluent to drain in a manner that travels toward the center of the curved pedestal to maximize the exposure of the effluent to the organic material used for brewing, while also maximizing yield. The pedestal  112  sits above the lowest effluent level to allow the brewed effluent to drain from the organic material that is used for brewing to maximize the amount of effluent obtained. By allowing the brewed effluent to drain from the organic material, the weight and size of the organic material is reduced, so that the filter bag can be removed from the brewing system without ripping or tearing. The brewing system eliminates the need for a separate mesh bag and allows the effluent to drain without squeezing the filter bag and which would otherwise cause the release of harsh oils and acids, which can also be unsanitary as a result of a user handling the bag filter.

CROSS REFERENCE TO RELATED APPLICATION

The present application claims priority to U.S. Provisional ApplicationNo. 62/369,540, as filed Aug. 1, 2016, the entire contents of which areincorporated herein by reference for all the application discloses andteaches.

BACKGROUND

Cold brewing of coffee, tea and other water-soluble organic materialshas been a popular procedure. Good tasting drinks are created in thismanner.

SUMMARY OF THE INVENTION

An embodiment of the present invention may therefore comprise a methodof brewing a brewed effluent in a brewing system that does not produceharsh acids and harsh oils in the brewed effluent comprising: placing anorganic material, used to create the brewed effluent, in a filter bag;placing the filter bag on a pedestal disposed in a bucket, the pedestalhaving a curved surface that is curved downwardly towards a middleportion of the pedestal so that effluent drains towards a centralportion of the pedestal and the effluent is concentrated towards amiddle portion of the filter bag to facilitate yield; placing water inthe bucket that interacts with the organic material to create the brewedeffluent; drawing the brewed effluent from the bucket to a minimumeffluent level, using a faucet disposed in the bucket; providing legs onthe pedestal that hold the curved surface of the pedestal above theminimum effluent level; allowing the organic material to drain for aperiod of time after the brewed effluent is drained to the minimumeffluent level; removing the filter bag without squeezing or pushing onthe filter bag to prevent the harsh oils and the harsh acids fromentering the brewed effluent.

An embodiment of the present invention may further comprise a brewingsystem for brewing brewed effluent comprising: a bucket that holds thebrewed effluent; a faucet disposed in a wall of the bucket in a locationthat is near a bottom portion of the bucket so that the brewed effluentcan be drained to a minimum effluent level using the faucet, whichleaves a space between the bottom portion of the bucket and the minimumeffluent level for collection of undesirable sediment; a pedestal thathas a curved surface and holes formed in the curved surface, the curvedsurface slanted downwardly towards a center portion of the pedestal, thecurved surface having a curvature that is sufficient to allow thepedestal to not interfere with the faucet and remain above the minimumeffluent level of a central portion of the curved surface; a filter bagthat contains an organic material for brewing, the filter bag disposedon the curved surface of the pedestal so that the brewed effluent drainstowards the central portion of the curved surface and the filter bag canfully drain, which reduces the weight of the organic material, thusmaking the filter bag less susceptible to tearing when being removedfrom the bucket.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an isometric view of a cold brewing system.

FIG. 2 is a cross-sectional view of the embodiment of FIG. 1 filled withwater.

FIG. 3 is a cross-sectional view of the embodiment of FIG. 1, showingthe brewing system partially filled with water.

FIG. 4 is a cross-sectional view of the embodiment of FIG. 1, with thewater drained to the lowest level allowed by the spigot.

FIG. 5 is another cross-sectional view of the embodiment of FIG. 1 withmost of the brewed effluent drained from the organic material.

FIG. 6 is an isometric view of the pedestal of the embodiment of FIG. 1.

FIG. 7 is a top view of the pedestal of the embodiment of FIG. 1.

DETAILED DESCRIPTION OF THE EMBODIMENTS

FIG. 1 is an isometric view of a cold brewing system that comprises anembodiment of the present invention. As illustrated in FIG. 1, thebrewing system 100 comprises a bucket 102 that has a lid 104. A faucet106 is used to drain the brewed contents (brewed effluent) from thebucket 102. Coffee grounds, tea, or other organic material 111 is placedin the bucket 102 and room temperature water is added to the bucket. Thewater is allowed to remain in the bucket for a period of time to createa brewed effluent, which can be drained by the bucket 106. The coldbrewing process provides for a brewed effluent 118 that has a pleasingtaste, since the cold brewing process, i.e., using room temperaturewater, extracts the favorable flavoring from the organic materials 111.In contrast, hot brewing tends to extract many acids, harsh tannins andother harsh oils that negatively affect the taste of the brewedeffluent.

FIG. 2 is a sectional view of the cold brewing system 100 of FIG. 1. Asillustrated in FIG. 2, the cold brewing system 100 has a bucket 102 anda lid 104. A faucet 106 is inserted through the wall of the bucket 102to drain the brewed effluent 118, which is the product of the brewingprocess. A filter bag 122 is placed in the bucket 102 on a pedestal 112.In prior art devices, a separate net bag that surrounds the filter bag122 was used for added stability to ensure that the filter bag 122 willnot break when being removed from the bucket 102, as a result of theadditional weight of effluent that has not been fully drained throughthe filter bag. Water is placed in the bucket 102 to the effluent level120, which surrounds the filter bag 122 and the organic material 111that is in the filter bag 122. The organic material can be any desiredorganic material, including ground coffee beans, tea, or other organicmaterial that can release flavorful effluents for consumption as abeverage or for medicinal purposes. The water can be room temperaturewater or may vary only slightly in temperature above or moresignificantly below room temperature, hence “cold brewing.” The waterinteracts with the organic material 111 and produces the brewed effluent110. In essence, the water extracts the favorable flavorings of theorganic material 111 with very few acids or harsh tannins or oils. Atypical brewing process may take anywhere from several hours up to 24hours. Filter bag 122 sits on a pedestal 112, which is curved downwardlytoward the center of the pedestal 112. Pedestal 112 has a series ofopenings 124, which allow the filter bag 122 to sit on pedestal 112 in acurved or sloped configuration to create maximum yield. Pedestal 112 hasthree legs, two of which are shown as legs 114, 116 in the sectionalview of FIG. 2. The third leg 117 is shown in FIG. 6. Faucet 106 is usedto drain the effluent 118 from the bucket 102 and drain the brewedeffluent 110 into another container after the brewing process iscompleted. Since the faucet 106 is capable of draining most of theeffluent from the bucket, and the organic material 111 in the filter bag122 is on the pedestal 112, and does not sit in the brewed effluent 110,it is no longer critical that the filter bag 122 does not break, sincemost of the effluent is drained out of the bucket when the filter bag122 is removed from the bucket. In other words, the brewed effluent 110is drained from the bucket before the filter bag 122 is removed. If thefilter bag 122 breaks during the removal of the filter bag 122, theentire contents can simply be dumped in a trash container and verylittle effluent will be lost. This constitutes another advantage ofusing the pedestal 112 to allow the effluent 110 to be drained from theorganic material 111.

FIG. 3 is another cross-sectional view, similar to FIG. 2, with some ofthe brewed effluent 110 drained from the bucket 102 using faucet 106. Asillustrated in FIG. 3, the effluent flows along the effluent fill lines128 as the effluent is drained to effluent level 126. In that regard,the brewed effluent 110 may be drained in stages. The brewed effluent110 may be drained to the effluent level 126 and left to drain for aperiod of time, so that the effluent flows along the effluent flow lines128 through a central portion of the organic material to increase theextraction of the favorable materials from the organic material 111. Inthat regard, the concentration of the brewed effluent 110 is increasedbecause of the effluent flow lines 128 that pass through a centralportion of the filter bag 122.

FIG. 4 is a cross-sectional view of the brewing system 100 of theembodiment of FIG. 1 with the effluent 118 drained to a minimum effluentlevel 130, which is the lowest level to which the effluent 118 can bedrained by the faucet 106. The cross-sectional view illustrated in FIG.4 is a view directly after the effluent 118 is drained by the faucet106. As shown in FIG. 4, the organic materials have absorbed much of theeffluent 118 and remain in an expanded condition in the filter bag 122.Drainage 132 from the filter bag drains into the effluent 118 that isbelow the level of the faucet 106. The central bottom portion of thepedestal 112 is located above the minimum effluent level 130, which isthe lowest effluent level when the brewed effluent 118 is drained by thefaucet 106.

With the brewed effluent 118 at the level 130 shown in FIG. 4, theeffluent that has been absorbed by the organic material 111 slowlydrains from the filter bag 120 to produce the filter bag drainage 132.This causes the effluent level 130 to increase. The space in-between thebottom of the pedestal 112 and the minimum effluent level 130 issufficient to allow the organic material 111 to drain or mostly drainfrom the filter bag 122. Of course, the spacing between the minimumeffluent level 130 and the bottom of the pedestal 112 varies accordingto the size of the system 100 and the amount of organic material.Typically, the space between the bottom of the pedestal 112 and theeffluent level 130 can be a half to ¾ of an inch. This space permitsundesirable sediment from the organic material to collect withoutbecoming part of the concentrate. The sediments that collect in thisspace between the bottom of the bucket and the lower portion of thefaucet 106 are very fine sediments that are too small to be filtered outby the filter bag. As illustrated in FIG. 3, the curved shape of thepedestal 112 causes forces to be exerted on the bottom portion of thefilter bag 122 in an inward direction, which causes the effluent flowlines 128 to be curved inwardly. This is a result of the inwardlydirected forces on the filter bag 128 created by the curved shape of thepedestal 112, which creates pressure along the curved surface of thefilter bag 122 that rests on the curved surface of the pedestal 112. Thecurved effluent flow lines 128, that indicate the flow of the effluent,causes the effluent to be filtered by the organic material 111 andconcentrated prior to passing through the filter bag 122. As shown inFIG. 4, the effluent is drained from the organic material 111 throughthe filter bag 122 to the effluent level 130. Typically, very finesediment is left in the bucket 102 in the effluent that is below theeffluent level 130. This very fine sediment is not filtered by thefilter bag 122 and can be considered to be undesirable by some coldcoffee drinkers. Therefore, these fine sediments are left in the bottomof the bucket 102 after the filter bag 122 has drained. When the bag isremoved from the bucket 102, a sufficient amount of effluent will havedrained from the organic material 111, so that the chance of breakage ofthe filter bag 122 is low. However, if the filter bag 122 does break,the organic material 111 simply falls on the pedestal 112 and possiblyinto the undesirable effluent below the effluent level 130 and can beproperly disposed.

FIG. 5 is another cross-sectional view of the brewing system 100 withmost of the brewed effluent 118 drained from the organic material 111.As illustrated in FIG. 5, the filter bag 122 contains the organicmaterial 111 that has been drained, as filter bag drainage 132, into thebottom of the bucket 102. Organic material may be allowed to drain forseveral minutes to several hours until most of the brewed effluent 118is drained from the organic material 111. This process has twobeneficial effects. First, the weight of the organic material 111 in thefilter bag 122 is significantly reduced, which allows the filter bag 122to be easily removed from the bucket 102 with minimal risk of tearing orripping the filter bag 122. In previous systems, a supporting net bagwas required to be used around the filter to ensure that the filter didnot rip when removing the filter from the bucket 102. Additionally, aprevalent method used in prior systems was to squeeze the filter toremove the excess effluent that has been absorbed by the organicmaterial 111. A user may typically lift the bag and squeeze it, or pushdown on the bag, to squeeze out excess effluent. This process wouldoften cause the bag to tear, which would essentially ruin the effluentleft in the bucket 102. Accordingly, a nylon or plastic net bag wastypically used in previous systems, which added to the expense andcomplexity of the system. By squeezing the bag, it became easier toremove the bag, because it was lighter, and the amount of the brewedeffluent was increased. What was not realized by these operators is thatundesirable harsh acids, harsh tannins, and harsh oils were alsosqueezed from the organic material 111 and became part of the brewedeffluent 118. These harsh materials degraded the taste of the resultantbeverage and, in general, lowered the quality of the brewed effluent118. In addition, the beverages generated out of the effluent constitutefood grade beverages, which can be contaminated by the hands of theuser, which may contain bacteria and viruses and may violate healthcodes. If the user attempts to lift the filter bag 122, as illustratedin FIG. 4, prior to the time that any significant amount of effluent hasdrained from the organic material 111, the weight of the bag willtypically exceed the strength limitations of the bag, necessitatingeither the use of a supporting mesh bag, or requiring the user to pushdown on the filter bag 122 to reduce the weight. So, the process ofallowing the filter to drain on its own reduces the weight of theorganic material 111 in the filter bag 122, which lessens the chance ofa rip or breakage of the filter bag, provides more effluent that doesnot contain nasty oils and acids from the organic material 111, and ismore sanitary, since the user does not use his or her grubby hands tosqueeze the effluent from the filter bag 122 of FIG. 5. After filter bag122 has been drained of brewed effluent 118, filter bag 122 then can beeasily and safely picked up and removed by a single user, and there isnot a large probability that the filter bag 122 will tear or rip, sincethe organic material 111 is significantly lighter. In addition, theuser's grubby hands are not immersed in the effluent by pushing orsqueezing the filter bag 122.

FIG. 6 is an isometric view of the pedestal 112. As shown in FIG. 6,there are a series of openings 124 in the curved upper surface of thepedestal that allow effluent to flow from the filter bag 122 through thepedestal 112. The pedestal 112 has three legs, legs 114, 116, 117. Eachof the legs is formed with an indentation in the upper surface of thepedestal 112, which provides both strength to the legs 114, 116, 117,and creates an opening that allows a user to grasp the pedestal 112 withone or more fingers.

The curvature of the surface of the pedestal 112 causes the brewedeffluent 118 to drain through the organic material 111 and funnel towardthe center of the filter bag 122. See FIG. 4. As indicated above, theeffluent tends to collect toward the center and flow through a greaterportion of the organic material 111 to create a richer and strongereffluent, as a result of the curved surface of the pedestal 112. Thisprocess occurs without releasing any of the harsh oils and acids fromthe organic materials 111.

FIG. 7 is a top view of the pedestal 112. As illustrated in FIG. 7, thelegs 114, 116, 117 have recessed openings 136, 138, 134, respectively.The recessed openings 134, 136, 138 are sufficiently large to allow oneor more fingers to be inserted into the top surface portion of thepedestal 112 to allow the pedestal 112 to be grasped and placed in, orremoved from, the bucket 102. The pedestal 112 also has a series ofopenings 124 and a central opening at the center of the curved portionof the pedestal 112. The curvature of the pedestal 112 also allows thepedestal 112 to be inserted in the bucket 102 and not interfere with theportions of the faucet 106 that extend through the side of the bucket102. The curvature then allows the lower portion of the pedestal todrain to a level that is just above the effluent level 130, as shown inFIG. 4. The openings 124 can be of any desired size or shape to allowthe effluent 118 from the organic material 111 to pass through thepedestal to the bottom portion of the bucket 102. The pedestal 112 maybe fabricated from any desired material, including a food grade plasticmaterial that can be easily and inexpensively produced. The materialshould be a food grade quality with a specific gravity of greater than1.0 that causes the pedestal 112 to not float. In this manner, when thepedestal 112 is placed in the bucket 102, with water in the bucket, thepedestal will sink to the bottom and become firmly seated by legs 114,116, 117 on the bottom of the bucket 102.

The foregoing description of the invention has been presented forpurposes of illustration and description. It is not intended to beexhaustive or to limit the invention to the precise form disclosed, andother modifications and variations may be possible in light of the aboveteachings. The embodiments were chosen and described in order to bestexplain the principles of the invention and its practical application tothereby enable others skilled in the art to best utilize the inventionin various embodiments and various modifications as are suited to theparticular use contemplated. It is intended that the appended claims beconstrued to include other alternative embodiments of the inventionexcept insofar as limited by the prior art.

What is claimed is:
 1. A method of brewing a brewed effluent in abrewing system that removes harsh acids and harsh oils in said brewedeffluent comprising: placing an organic material, used to create saidbrewed effluent, in a filter bag; placing said filter bag on a pedestaldisposed in a bucket, said pedestal having a curved surface that iscurved downwardly towards a middle portion of said pedestal so thateffluent drains towards a central portion of said pedestal and saideffluent is concentrated towards a middle portion of said filter bag tofacilitate yield; placing water in said bucket that interacts with saidorganic material to create said brewed effluent; drawing said brewedeffluent from said bucket to a minimum effluent level, using a faucetdisposed in said bucket; providing legs on said pedestal that hold saidcurved surface of said pedestal above said minimum effluent level;allowing said organic material to drain for a period of time after saidbrewed effluent is drained to said minimum effluent level; removing saidfilter bag without squeezing or pushing on said filter bag to preventsaid harsh oils and said harsh acids from entering said brewed effluent.2. The method of claim 1 further comprising: using a pedestal that issufficiently tall to not engage said faucet and has a curvature thatcauses said central portion of said pedestal to be disposed above saidminimum effluent level.
 3. The method of claim 2 further comprising:using a bucket that is made from a food grade material.
 4. A brewingsystem for brewing brewed effluent comprising: a bucket that holds saidbrewed effluent; a faucet disposed in a wall of said bucket in alocation that is near a bottom portion of said bucket so that saidbrewed effluent can be drained to a minimum effluent level using saidfaucet, which leaves a space between said bottom portion of said bucketand said minimum effluent level for collection of undesirable sediment;a pedestal that has a curved surface and holes formed in said curvedsurface, said curved surface slanted downwardly towards a center portionof said pedestal, said curved surface having a curvature that issufficient to allow said pedestal to not interfere with said faucet andremain above said minimum effluent level of a central portion of saidcurved surface; a filter bag that contains an organic material forbrewing, said filter bag disposed on said curved surface of saidpedestal so that said brewed effluent drains towards said centralportion of said curved surface and said filter bag can fully drain,which reduces the weight of said organic material, so that said filterbag does not tear when being removed from said bucket.
 5. The system ofclaim 4 wherein said filter bag is constructed of a paper filter andthere is no net bag surrounding said filter bag.
 6. The system of claim5 wherein said pedestal is a food grade material and does not float. 7.The system of claim 6 wherein said pedestal has at least three legs thatform recessed openings at locations where said legs meet said curvedsurface, said recesses being sufficiently large to allow a user toinsert a finger for removal of said pedestal from said bucket.